KR20100049771A - Piezo electric generation device using human walking energy - Google Patents

Abstract

PURPOSE: A piezoelectricity power generating device is provided to produce the electricity without the environmental contamination by using the kinetic energy or the potential energy of pedestrian. CONSTITUTION: A piezoelectricity power generating device comprises a plurality of piezoelectricity packs(10), a storage part(20), a fixture, and a foothold. A piezoelectricity pack includes a case, a piezoelectric element, and a cap. The cap pressurizes the piezoelectric element with the external force. The storage part stores the electrical energy generated in the piezoelectricity pack. The fixture has a plate shape. The fixture clinches the piezoelectricity pack and the storage. The foothold covers the fixture. The foothold decentralizes the load of the pedestrian which is applied to the piezoelectricity pack.

Description

Piezo electric generator using energy of pedestrians {Piezo electric generation device using human walking energy}

The present invention relates to a piezoelectric power generation device using energy of a pedestrian, and more particularly, to a piezoelectric power generation device using energy of a pedestrian capable of generating and charging electrical energy using energy repeatedly compressing the ground while a pedestrian walks. It is about.

Recently, as the problem of energy depletion is serious around the world, research on alternative energy is active.

Currently, most energy is obtained by thermal power, hydropower, wind power, fossil fuels, and nuclear power, and solar energy, bio energy, and renewable energy are in the spotlight as alternative energy.

However, each energy is not environmentally friendly and emits a lot of pollutants, so the environmental problems are serious, and due to resource depletion, the actual lifespan remains only a few decades. In addition, nuclear power and solar energy, which have no environmental problems, are attracting attention, but problems of their own facilities and technology development remain.

Recently, piezoelectric element (piezo electric element) application technology is rapidly developing, piezoelectric element generates a + potential when the force is applied and-when the interruption-a device that generates a potential or a deformation when applying an electric signal In other words, it is a device that acts as a transformer that converts power and electricity.

Energy generating devices using such piezoelectric elements are utilized in various applications, and in particular, they are used in gas burners used as piezoelectric ignition means, or widely used in various medical devices, electronic devices, precision machines and electrical sensors. Therefore, it is especially used for power generation, and power generation by piezoelectric elements has many advantages, such as a simple and easy method of producing electricity and does not cause environmental problems.

Therefore, there is a need for a device capable of producing electrical energy using such a piezoelectric element, and in particular, a method and a device capable of utilizing kinetic energy or potential energy of a pedestrian walking on a road will be required.

The present invention has been made to solve the above problems is an object of the present invention is to provide a piezoelectric power generation device using the energy of pedestrians to generate the pedestrian walking energy into electrical energy by embedding a piezoelectric element in a place where many people pass. will be.

Still another object is to provide a piezoelectric power generation apparatus using energy of a pedestrian capable of increasing the amount of power generated by arranging a plurality of piezoelectric elements.

The present invention for achieving the above object is a power generation system for converting the energy of pedestrians into electrical energy, a plurality of piezoelectric packs with a built-in piezoelectric element, connected to each of the piezoelectric pack is generated in the piezoelectric pack A storage unit for storing electrical energy, a plate-shaped fixture for fixing the piezoelectric pack and the storage unit, and a scaffold covering the fixture and distributing the pedestrian load applied to each piezoelectric pack. It is done.

Preferably, the piezoelectric pack comprises a container-shaped case, a piezoelectric element stacked vertically in the case and connected in parallel to each other, and a cap sealing the case and compressing the piezoelectric element by an external force. It is done.

Preferably, the storage unit is characterized by consisting of a rectifying circuit for rectifying the AC current generated in the piezoelectric pack to a DC current, and a storage circuit for storing the rectified DC current.

Preferably, the fixing body is further provided with a charging battery connected to each of the storage units so as to collect and store electrical energy stored in each of the storage units.

Preferably, the fixed body is further provided with an integrated power meter connected to each of the storage unit to measure the amount of electrical energy stored in each of the storage unit.

Preferably, the fixing body has a flat board, a plurality of holes arranged in a matrix on the board and into which the piezoelectric pack and the storage part can be inserted and fixed, and interconnecting the piezoelectric pack along the hole. It is characterized by consisting of a passage in which the electric wire is embedded.

Preferably, the piezoelectric pack, a storage unit, and a plurality of units formed of a fixed body are stacked to increase the electrical energy generated.

The effect of the present invention by the above-described configuration is economical because it can be developed by using the human walking energy in a simple configuration, it is very useful because it does not cause problems such as environmental pollution or other energy depletion.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a plan view showing a piezoelectric power generator using the energy of a pedestrian according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing a cross-section of the AA 'portion shown in Figure 1, Figure 3 is shown in Figure 2 It is sectional drawing which shows the internal structure of a piezoelectric pack.

The present invention is largely composed of a piezoelectric pack 10, the storage unit 20, the fixed body 30 and the scaffold 40 as shown, as shown in the piezoelectric pack 14, the piezoelectric element 14 is built ( 10) A plurality of the plates are fixed uniformly horizontally and vertically to the plate-shaped fixture 30, the storage unit 20 is connected to each piezoelectric pack 10, the fixture 30 and each piezoelectric pack 10 It consists of a flat plate-shaped footrest 40 covering.

First, the piezoelectric pack 10 will be described.

The piezoelectric pack 10 includes a case 12 having a container shape so that the piezoelectric elements 14 can be stacked therein, a plurality of piezoelectric elements 14 stacked and fixed inside the case 12, and The case 12 is closed and is pressurized by an external force to form a cap 16 for compressing the piezoelectric element 14.

Referring to FIG. 3, the piezoelectric element 14 is a known configuration consisting of a piezoelectric material and an electrode, and a single piezoelectric element 14 is stacked up and down and connected in parallel.

The reason for the laminated structure is to increase the amount of electric energy generation by allowing the pedestrian load to be transferred to each piezoelectric element 14 as it is. In other words, if the plurality of piezoelectric elements 14 are arranged horizontally without being stacked, the loads of the respective piezoelectric elements 14 are distributed and the amount of actual electrical energy generated is reduced.

For reference, the piezoelectric element 14 may be fixed in the case 12 by filling the inside of the case 12 with a filling material such as silicon 18 so as not to swing.

In addition, the cap 16 may be opened and closed to the case 12, but is coupled in contact with the upper surface of the piezoelectric element 14, the cap 16 is received by the load the cap 16 is The piezoelectric element 14 that is pressed into the case 12 and is stacked is compressed.

Of course, when the load is removed, since the piezoelectric element 14 is restored to its original shape, the cap 16 is moved upward again to restore the original position.

Next, the storage unit will be described with reference to FIGS. 1 and 4.

4 is a circuit diagram illustrating a storage unit of the present invention.

The storage unit 20 is composed of a rectifier circuit 22 and the storage circuit 24 and provided with the number of the piezoelectric pack 10 is connected to each of the piezoelectric pack 10, the rectifier circuit 22 is A circuit that receives the current generated by the piezoelectric element 14, and rectifies the alternating current generated by the piezoelectric element 14 to direct current, and is composed of a known bridge diode circuit as shown.

In addition, the DC current rectified by the rectifier circuit 22 is input to the storage circuit 24 and stored in a capacitor (capacitor), and the electricity stored in the capacitor is the amount of power charged or accumulated in the rechargeable battery 50 to be described later. Can be connected to the integrated power meter 60 showing.

That is, in the present invention, the storage unit 20 is coupled to each of the piezoelectric elements 14, and the storage units 20 may be connected to each other in parallel or in series, and electrical energy stored in each of the storage units 20. Can be used as a power source for other devices.

Next, the fixture 30 will be described with reference to FIGS. 1 and 3, and the fixture 30 has a flat plate shape in a configuration capable of fixing and arranging the piezoelectric pack 10 and the storage part 20. Has

The fixture 30 has a plurality of holes 34 arranged at regular intervals horizontally and vertically on a flat board 32 having a predetermined thickness, and the holes 34 arranged along rows or columns. The passage 36 is formed in a straight line so that they are in communication. Here, the passages 36 are arranged with wires connecting the respective components.

The board 32 is made of a material such as synthetic resin in a rectangular flat plate shape and the hole 34 is the same as the shape of the cross-section of the piezoelectric pack 10 so that the piezoelectric pack 10 is inserted into and fitted. Is determined.

In this case, the storage unit 20 connected to each piezoelectric pack 10 inserted into the hole 34 is arranged in the same way as the gap formed by the hole 34 on the passage 36 and connected to each other by wires.

Of course, the piezoelectric pack 10 may be fixed to the fixture 30 in a different arrangement form.

Next, the scaffold 40 is coupled to cover the upper portion of the fixing body 30 to distribute the pedestrian load to each of the piezoelectric packs 10. That is, the load of the pedestrian concentrated at one point is to be evenly distributed in the piezoelectric pack 10 arranged at another point.

In addition, since the piezoelectric pack 10 may be damaged by a sharp object such as a heel of a pedestrian walking, the scaffold 40 also serves to protect the piezoelectric pack 10.

The scaffold 40 forms a flat plate shape and may be made of various materials such as metal, wood, and synthetic resin. Preferably, the material has excellent durability.

In the present invention, the electrical energy temporarily stored in each of the storage units 20 may be directly connected to and driven by a separate electric device, but may be charged by being connected to a separately provided charging battery 50 and thus the charging battery 50 The electricity charged in the is used as the power source for other kinds of devices.

In addition, in order to visually show the amount of power generated by the piezoelectric pack 10, the total amount of power accumulated by connecting the integrated power meter 60 is displayed. Those skilled in the art can also be configured as a tower-type display provided up and down long to indicate the level of power accumulated by using the integrated power meter 60 and the LED.

In the present invention, since the electricity generated for each piezoelectric pack 10 is a small amount, in order to increase the amount of power generation, the unit body 100 including the fixed body 30, the piezoelectric pack 10, and the storage unit 20 is laminated. Can be configured.

As shown in FIG. 2, when the unit 100 is formed in multiple layers, electric loads generated by the unit 100 are transmitted to the piezoelectric pack 10 in which the pedestrian load is stacked up and down. By providing the power generation amount in proportion to it.

The embodiments of the present invention described above are just one embodiment, and various applications and modifications may be made by those skilled in the art within the scope of the present invention.

1 is a plan view showing a piezoelectric power generation device using the energy of a pedestrian according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view showing a section of the AA ′ portion shown in FIG. 1. FIG.

3 is a cross-sectional view showing the internal structure of the piezoelectric pack shown in FIG.

4 is a circuit diagram showing a storage unit of the present invention.

<< Explanation of main parts of drawing >>

10: piezoelectric pack 12: case

14 piezoelectric element 16 cap

18 silicon 20 storage

22: rectifier circuit 24: storage circuit

30: fixture 32: board

34: hole 36: passage

40: scaffold 50: rechargeable battery

60: integrated power meter 100: unit

Claims (7)

In the power generation system that converts the energy of pedestrians into electrical energy, A plurality of piezoelectric packs 10 having piezoelectric elements 14 therein; A storage unit 20 connected to each of the piezoelectric packs 10 to store electrical energy generated by the piezoelectric packs 10; A plate-shaped fixture 30 capable of fixing the piezoelectric pack 10 and the storage 20, respectively; Piezoelectric power generation apparatus using the energy of the pedestrian, characterized in that consisting of; scaffolding (40) to cover the fixed body 30 and to distribute the load of the pedestrian to each of the piezoelectric pack (10). The method of claim 1, The piezoelectric pack 10 is a container-shaped case 12, the piezoelectric element 14 is stacked up and down inside the case 12 and connected in parallel to each other, and the case 12 is sealed and by external force Piezoelectric power generation apparatus using the energy of the pedestrian, characterized in that consisting of a cap (16) for compressing the piezoelectric element (14). The method of claim 1, The storage unit 20 is characterized by consisting of a rectifying circuit 22 for rectifying the alternating current generated by the piezoelectric pack 10 to a direct current, and a storage circuit 24 for storing the rectified direct current. Piezoelectric power generation device using the energy of the pedestrian. The method of claim 1, One side of the fixed body 30 is the energy of the pedestrian, characterized in that it is further provided with a rechargeable battery 50 connected to each of the storage unit 20 to collect and store the electrical energy stored in each of the storage unit 20. Piezoelectric power generator using. The method of claim 1, One side of the fixed body 30 is further provided with an integrated power meter 60 is connected to each of the storage unit 20 to measure the amount of electrical energy stored in each of the storage unit 20 of the pedestrian Piezoelectric generator using energy. The method of claim 1, The fixed body 30 is arranged in a matrix on the board 32 and the board 32 of the plate-like hole in which the piezoelectric pack 10 and the storage unit 20 can be inserted and fixed respectively ( 34) and a piezoelectric generator using energy of a pedestrian, characterized in that the passage (36) is embedded with the wires interconnecting the piezoelectric pack (10) along the hole (34). 7. The method according to any one of claims 1 to 6, Piezoelectric using the energy of the pedestrian, characterized in that the piezoelectric pack 10, the storage unit 20, the unit body 100 consisting of a plurality of the fixed body 30 is stacked in order to increase the generated electric energy. Power generation device.

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